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Monday, February 1, 2016

Cepheid announced a collaboration with MedImmune, the global biologics research and development arm of AstraZeneca, and COMBACTE, a European public/private partnership set up to promote the development of new drugs in the anti-infectives field, to develop a series of rapid diagnostic tests to identify Staphylococcus aureus (S. aureus) and Pseudomonas aeruginosa (P. aeruginosa) in respiratory secretions of mechanically ventilated patients. These tests will be used to help identify patients for MedImmune's MEDI4893 and MEDI3902 clinical programs, which are being conducted within the COMBACTE consortium to explore the use of biologics in preventing ventilator associated pneumonia (VAP) infections in intensive-care-unit (ICU) patients.

MEDI4893 is a novel monoclonal antibody that targets alpha toxin produced by S. aureus and is currently being investigated by MedImmune and COMBACTE for the prevention of nosocomial pneumonia caused by S. aureus. MEDI3902 is a bispecific antibody under investigation for the prevention of nosocomial pneumonia caused by P. aeruginosa, a highly drug-resistant bacterium. The Xpert® tests are expected to help identify patients colonized with S. aureus or P. aeruginosa before they have clinical signs of pneumonia, so that these patients can be enrolled in the respective MEDI4893 or MEDI3902 clinical trials.

"Utilizing rapid diagnostics is a key component in effectively targeting serious healthcare-associated pathogens in our MEDI4893 and MEDI3902 clinical trials," said Steve Projan, head of Infectious Diseases and Vaccines, Innovative Medicines unit at MedImmune. "We believe that the combination of rapid diagnostics and pathogen-specific antibodies will help physicians identify patients at risk and prevent serious and life-threatening infections in a way that is not possible today. By developing diagnostic tests through this collaboration with Cepheid, we can ensure that novel life-saving antibodies are delivered to patients who need them in a rapid and efficient manner."

As part of the collaboration, Cepheid has adapted its existing Xpert MRSA/SA skin and soft tissue infection (SSTI) test cartridge for use in respiratory sample types for detection of patients with respiratory colonization with S. aureus and MRSA. This test is being used in ongoing clinical trials for MEDI4893. In addition, Cepheid has developed a new Xpert test cartridge to support the rapid identification of patients colonized with P. aeruginosa for patient enrollment in clinical trials for MEDI3902 starting early in 2016.

"Cepheid is pleased to be working with MedImmune and COMBACTE to address the critical challenges posed by serious bacterial infections. We believe this can be achieved through the use of molecular diagnostic tests to precisely target colonized patients, improve clinical trial efficiency, and accelerate these much needed therapeutics to market," said John Bishop, Cepheid's Chairman and Chief Executive Officer. "These two initial projects give Cepheid an opportunity to demonstrate its technology leadership, while also building an installed base of GeneXpert systems that could be leveraged for future COMBACTE or broader Innovative Medicines Initiative programs."

Dr. Herman Goossens, the head of COMBACTE's laboratory network who is participating in both the MEDI4893 and MEDI3902 trials and evaluating the new assays added, "We are pleased that COMBACTE is supporting the implementation, training and validation of both the S. aureus and P. aeruginosa screening tests. Our ability to engage the laboratories in the network will ensure timely implementation and standardization of the platform while allowing us to determine the utility of identifying colonized patients before they show clinical signs of pneumonia."

According to the Centers for Disease Control and Prevention, S. aureus and P. aeruginosa together account for >40% of VAP infections in the United States (Sievert DM, et al. 2013). The length of stay in the ICU is extended on average 17 days after pneumonia onset when either S. aureus or P. aeruginosa are present, and the attributable mortality can reach 30% despite the use of currently available antibiotics.